Wiring system between sound source circuits and keyer circuits in an electronic musical instrument

ABSTRACT

The wiring system of this invention is for connecting a number of integrated sound source circuits with the corresponding number of integrated keyer circuits in an electronic musical instrument, and is realized on a single piece of a rectangular wiring substrate. More particularly, the wiring system is characterized in that the sound source circuits are sequentially arranged along one arbitrary side of the rectangular wiring substrate while the keyer circuits are sequentially arranged along the second side of the substrate adjacent to said first side; that conductive members corresponding, in number, to the output terminals of the sound source circuits are extended on one surface of the substrate, from the output terminals toward the side facing said first side; that conductive members corresponding, in number, to the input terminals of the keyer circuits are extended, on the other surface of the substrate, from the input terminals toward the side facing said second side up to the points where the conductive members from the output terminals are terminated on the one side of the substrate; and that at those points the conductive members on both surfaces of the substrate are, respectively, connected by coupling means.

United States Patent [1 1 Ishimura [H] 3,715,443 Feb. 6, 1973 [54] WIRING SYSTEM BETWEEN SOUND SOURCE CIRCUITS AND KEYER CIRCUITS IN AN ELECTRONIC MUSICAL INSTRUMENT 3,535,429 10/1970 Uchiyama ..84/l.0l

Primary Examiner-Richard B. Wilkinson Assistant Examiner-Stanley J. Witkowski [75] lnventor: Kazukiyo Ishimura, I-lamamatsu, Attorney cusyhman'Darbygzcushman Japan 57 ABSTRACT [73] Asslgnee: lfp Gakki seizo Kabushiki The wiring system of this invention is for connecting a Hamamatsu Japan number of integrated sound source circuits with the 22 Filed; Nov. 3 7 corresponding number of integrated keyer circuits in an electronic musical instrument, and is realized on a pp No.3 203,232 single piece of a rectangular wiring substrate. More particularly, the wiring system is characterized in that [30] Foreign Application priority Data the sound source circuits are sequentially arranged along one arbitrary side of the rectangular wiring sub- D603, I970 Japan ..45/l1|040 trata while the keyer circuits are sequentially Dec. 3, 1970 Japan ..45/l07l23 ranged along the econd side of the ubstrate adjacent I to said first side; that conductive members cor- [52] U.S. Cl .t ..84/l.01 responding, in number, to the output terminals of the [51] Int. Cl. ..G10h 1/00 sound sgurce circuits are extended on one urface of Field 0f Search the substrate, from the output terminals toward the 84/122; 317/101. C E side facing said first side; that conductive members corresponding, in number, to the input terminals of [56] References Cited the keyer circuits are extended, on the other surface of the substrate, from the input terminals toward the UNITED STATES PATENTS side facing said second side up to the points where the 3,505,461 conductive members from the output terminals are 2,019,625 terminated on the one side of the substrate; and that ,6 6 at those points the conductive members on both sur- ,499,09O faces of the substrate are, respectively, connected by 3,440,325 coupling means. 3,450,825 3,490,327 3 Claims, 7 Drawing Figures 30 :lOb i ljgfigfi sji 4 4 ,4 ,4 40, 4. 3L o I H I f 4.1.. .Mmnmm .i......n..l..llllm 3.2 eei tfir ere ee ee e TB NOTES kit :11: 3-: 7l-- 2'2 DTVREJER E: a '2 K|-6 KIZ N M53; Klz I |b(B4) Z zllf 3" mg 0 'n 1 212 532 1: m0 mg 01110 0 20 0': "f, w

DIVIDERS PATH-HEDFEB 6 1975 3.715443 SHEET 10F 5 INVENTOR fii zz/z/m Afl/NM/Q ATTORNEYS 4 WIRING SYSTEM BETWEEN SOUND SOURCE CIRCUITS AND KEYER CIRCUITS IN AN ELECTRONIC MUSICAL INSTRUMENT BACKGROUND OF THE INVENTION This invention relates to wiring system for connect,

, ing a number of integrated sound source circuits with the corresponding number of keyer circuits, both used in a tone signal producing unit ofan electronic musical instrument, on a piece of wiring substrate under a predetermined rule.

As is well known in the art, the tone signal producing unit of the electronic musical instrument is comprised of a number of sound source circuits including frequency dividing circuits and of the corresponding number of keyer circuits, the input and output terminals of these circuits being required to be interconnected through a.

ments, making the circuit construction itself of these sound source circuits and keyer circuits smaller in size 30 and lighter in weight. However, when constructing a tone signal producing circuit by means of these integrated circuits, a wiring work for connecting the output terminals of the sound source circuits with the input terminals of the keyer circuits in a complicated pattern under a predetermined wiring rule was still to be performed. And, inasmuch'as the wires or a bundle of wires for construction of the said circuits be congested in the wiring section, difficulties were involved in simplification and automation of the wiring operation and in addition, wirings and asubstrate therefor inevitably occupied a large space.

Accordingly, in the manufactureof this type of electronic musical instruments, the development of an improved wiring technique for construction of the said circuit has been a great concern for those in the art.

ln the following, first the outline of constructions tone signal producing circuit will be given as to the case where the sound source circuits (frequency dividing circuits) and the keyer circuits of the tone signal producing unit to which the present wiring system is applied are formed in an integratedcircuinand then-a technological problem on wiring in such circuit construction will be made clear.

FIG. 1 through 3 show the arrangement and relative relation of two types of circuits'of the tone signal producing unit, that is, a number of frequency dividing circuits and the corresponding number of keyer circuits, both of which are divided into a number of integrated circuit blocks.

FIG. 1 is a system diagram of the frequency dividing circuit for producing musical notes of the electronic musical instrument;

FlG.2 a system diagram of the keyer circuit of the same and FIG. 3 a diagram of connection between the frequency dividing circuits and the keyer circuits.

25, output terminal C In the system diagram shown in FIG. 1,1,, 1,, 1,, are master oscillation circuits or master oscillators for generating sound sources corresponding to twelve notes of'an octave or C, C D, D ,.,.A, A B, the output terminals 2, 2, 2,, of each ofthese oscillators being connected to the input terminals of the first frequency dividers of the integrated frequency dividing circuit or divider blocks 3, 3, 3,, of the following stage, respectively. Each of the frequency divider blocks 3, 3, comprises frequency dividing circuits or dividers equivalent in number to the number of octaves of the musical instrument and the respective frequency divider blocks 3 (hereafter, if a suffix of a suffix bearing reference number is omitted it means all elements having such reference number) are provided with that number of output terminals which corresponds to the number of octaves of musical notes the musical instrument has. ln the embodiment illustrated,

the frequency divider blocks 3, 3, 3,, are each provided with six output terminals, which are marked with the symbols of notes allotted to the respective frequency dividers, to which symbols suffix coincident with the number of octaves are added. Accordingly, taking the for example, an electrical signal corresponding to the tone at the note C of the second octave will appear at the terminal marked with the symbol C The frequencies of the abovementioned master oscillation circuits, 1,, l, 1,, are divided successively into half by the frequency dividers 3,, 3,, 3,, so that, as a-whole, sound source signals of 12 notes by six octaves or 72 notes can be obtained.

Further, 4.1(43, 45, 4 and 42(4,;, 43, 4 or 4,,) indicated by FIG. 2(a) and 2(b) are a pair of IC (integrated circuit) blocks comprising a total of twelve keyer circuits, each block comprising six keyer circuits for half an octave. Each of the aforesaid groups of keyer circuits 4,. 4,, 4,. 4,, and, 4,,. 4,, is provided with the sound source signal input terminals K,,K,,

K K K,, each provided for each keyer circuits. Further, each keyer circuit of the keyer blocks 4, and 4,(4, and 4 4,, and 4,,) is provided with control terminals 5, and 5,(5, and 5,, 5,, and 5,,) to be connectedto key contact switches(not shown). Thus the manipulation of keys permits the sound source signals to pass through the keyer circuits. Each keyer blocks 4,, 4,, 4,, has one output terminal 6,, 6,, 6,, to

which the keyer circuits of the block are all connected 'so as to lead sound signals into next stages.

The number of output terminals C C B hsbftlie aforesaid 12 frequency divider blocks 3 is 72 in all, while the number ofinput terminals l(,, K, K,, of six sets of keyer circuits 4,. 4,, 4,. 4,, 4,,. 4,,

is7 2 in all, and the'former output terminals and the latter input terminals are connected in the following manner to constitute the tone signal producing unit. That is, as shown in FIG. 3, the output terminals C,- C 5 E, 4, of the first six freque ncy divider blocks 3, are matched with the input terminal group (K,, K,) in the keyer circuit blocks represented by the reference numerals of an odd-numbered suffix or 4,, 4,, .4,,, while the output'terminals F B,., of the last sixfrequency divider blocks 3,, 3,,

3,, are matched with the input terminals (K,, l(,,) ofthe keyer circuits represented by the reference numeralswith even numbered suffix or 4,, 4,, 4,,.

an odd numberedsuffix 4,, 4,,, 4,, and the same applying to the rest, the output terminals F,-{of the frequency divider block 3,, are each connected to the sixth input terminal K of each of the keyer circuits similarly with an odd numbered suffix 4,, 4,,, 4,,,

while the output terminals F of the frequency divider block 3 are each connected to the first input terminal K, of each of the keyer circuits with an odd numbered suffix 4 4,, 4, and the same applying to the rest, the output terminals B of the frequency divider block 3, are each connected to the sixth input terminals K, of each of the keyer circuits similarly with an odd numbered suffix 4 4,, 4,

In this way, by connecting the sound source circuits with the keyer circuits under the abovementioned wiring rule, it is possible to construct an electronic musical instrument equipped with six-octave keyboard, that is, 72 keys.

However, when wiring the sound circuits(frequency dividing circuits) and the keyer circuits under the predetermined wiring rule by the above wiring means, it can be easily presumed from the drawings and the above description that a bundle of wires and conductive lands of printed circuit board will cross and converge each other and the aforesaid difficulties will arise, resulting in the need to eliminate such technical problem.

SUMMARY or THE INVENTION Accordingly, a principal object of this invention is to solve the abovementioned technical problem and thereby ,to reduce size and weight of the wirings and to automate the manufacturing process, thus offering a cheap electronic musical instrument. In particular, this invention is characterized in that in paying attention to the aforesaid specificity of the conditions of connection between the integrated sound source circuits (frequency dividing circuits) and the similarly integrated keyer circuits in the electronic musical instrument, the both circuit group are put together on the front side and back side of one wiring substrate and interconnected functionally while making use of the specific wiring conditions effectively.

The wiring system of this invention is based on the conception that conductive members to be connected with the output terminals from a plurality of frequency dividing circuits corresponding to notes are formed on one side of the substrate, while, on the other side of the base plate, conductive members to be connected with the input terminals of a plurality of keyer circuits correspondingto the number of keys are provided, and further, by causing aforesaid both group of conductive members to cross on different surfaces of the substrate, the conductive members provided on the different surfaces are jointed in regular manner under the predetermined wiring rule.

This wiring system can be embodied byzthe practical I examples to be described below. The most fundamental example of embodiment is illustrated as an embodiment [I] in FIGS. 4 and 5, and its application as the embodiment [II] in FIG. 6,

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a system diagram of the osillator and 'frequency 'dividing circuits for producing sound sources'of an electronic musical instrument:

FIGS. 2(a) and 2(b) are a pair of IC (integrated circuit) blocks comprising a total of twelve keyers, each block comprising six keyer circuits for halfan octave.

FIG. 3 is a diagram of connection between the frequency dividing circuits and the keyer circuits;

FIG 4 is a plan view of a first embodiment, in which a number of terminals of the sound source circuits and keyer circuits are connected on a printed circuit substrate in accordance with the present wiring system;

FIG. 5 is an enlarged section of a portion of the wirings on the wiring substrate in FIG. 4;

FIG. 6 is a plan view of a second embodiment of collective connection of a number of terminals of the sound source circuits and keyer circuits on a printed circuit substrate in accordance with the present wiring system.

DESCRIPTION OF THE PREFERRED EMBODIMENTS EMBODIMENT [I] sides, for instance, sides 10, and 10 are selected and theaforesaid keyer circuits 4,, 4 4, are arranged in order along the edge of the former side 10,, while the aforesaid frequency dividers or divider blocks 3,, 3 3, are arranged in order along the edge of the side 10 of the board 10. As aforesaid, each frequency divider block 3 is an aggregate of integrated frequency dividing circuits and each keyer circuit block 4 is an aggregate of integrated keyer circuits. Both groups of integrated circuit blocks are mounted on the surface of board 10 by lap terminals, pin terminals or other known means. On the front surface 10a of the board 10, six straight parallel conductive members 1la(shown in solid lines) are formed from the side l0 toward the side facing the side 10, corresponding to the input terminals K,, K K of the keyer circuits 4,, 4 4,,, while on the back surface 10b of the board 10, six straight parallel conductive members 11b (shown in broken lines) are provided, from the side l0 toward the side facing the side 10, corresponding to the output terminals C,-,, C B, of each frequency divider block 3,, 3,, 3,, Most preferably the conductive members 11a, 11b should be formed by a printed circuit technique, but they may be formed by any other technique, if any, that may replace the said technique. Thus, the conductive members 11a on the front surface 10a of the board 10 and the conductive members llb on the back surface 10b are in mutual crossing relationorthogonal to the conductive members 11b, they are in a condition in which they can be interconnected freely.

Such being the case, when connecting the output terminals of the frequency dividers 3 with the input terminals of the keyer circuits 4, as clearlyjndicated in FIG. 5 one may make beforehand a through-hole 12 in the board at the point of intersection of the conductive members 11a and 11b to be interconnected, and at the time of printing, electrically connect or fix the conductive member 11a on one surface through the aforesaid through-hole 12 to the conductive member 1112 on the other surface or electrically join the both conductive members 11a, 1112 by following solder into the said through-hole 12. I

If one connects the output terminals C C B, of the frequency dividers 3 of this electronic musical instrument with the input terminals K,;,, of the keyer circuits 4 according to the wiring scheme in FIG. 3, the connection is made as illustrated in FIG. 4. That is, the frequency dividers 3,, 3 3,, are connected to the keyer circuits with an odd numbered suffix, 4, 4,, 4,, and for example, six output terminals C,. of the frequencydivider block 3, are connected sequentially to the input terminals K, of the keyer circuit blocks with an odd numbered suffix through the conductive members llaand 11b extended at a right angle to each other. At the points of intersection of the conductive members 11a,,11b, the through-holes 12 are made beforehand to serve as means for connecting the corresponding members 11a and 11b. On the other hand, the frequency dividers 3 3,,, 3, are connected to the keyer circuits with an even numbered suffix 4,, 4,, 4, and for example, six outputterminals B of the frequency divider block.3,, are connected one by one to the input terminals K of the keyer circuit block with an even numbered suffix through the made at the points of intersection beforehand. In the meantime, once the position of this through-hole is decided, there is no need of extending the conductive members lla, 11b beyond that position and therefore the conductive member 11 having a length up to that position will be provided.

In FIG. 4, only the connection between the frequenfrom thenotes F to B are provided one by one from the right to the left. On the other hand, at specified positions along the opposite sides 10, and 10 of the board 10, small holes(not shown), six for each divider block, are made beforehand to pass lap terminals or pin terminals (not shown) leading from the output terminals of the aforesaid frequency dividers 3,, 3 3 and with these through-holes as the straight points, the straight parallel conductive members llb(shown in broken lines)are formed on the back surface 10b of the board, extending toward the opposite side 10,, or 10,.

Further, of the other opposite side 10,, and 10, of the board 10, along the left side 10 are provided the oddnumbered keyer circuits 4,, 4 4,, sequentially from the upper part of the board 10 downward, while on the right side 10,, of the board 10 are provided, similar to the abovementioned, the even-numbered keyer circuits 4,, 4,, 4,, one by one in this order. In

conductive members 11a and 11b extended at a right angle toeach other. The through-holes 12 aresimilarly cy divider blocks 3,, 3 and 3,, and the corresponding v input terminals of the keyer circuit blocks is illustrated but the illustration of the conductive members 11a and I 11b for connecting the other frequency divider blocks and keyer circuit blocks is omitted, as the connection of the latter circuit blocks is made in substantially the same way as in the case of the frequency divider blocks 3,,3,, and 3,,. v

EMBODIMENT u 1 This embodiment represents the case where the frequency dividers are arranged along the edges of two opposite sides ofa rectangular printed circuit board, while the keyer circuits are arranged along the edges of the other two opposite sides. I

In FIG. 6, references numeral 10 is a rectangular printed circuit board made of such insulating material as synthetic phenol resin(trade name: Bakelite) and of its any two opposite sides 10, and 10,, for example, along the upper edge 10, and from the left to the right a the meantime, one the front face 10a of the board 10 are formed a set of six straight conductive members 11a(shown in solid lines) corresponding to the input terminals I(,, K K and K-,, I(,,, K of the respective keyer circuits 4 ,4 4, As for the connections of the aforesaid both conductive members 1 la and 11b with the frequency dividers 3 and the keyer circuits 4, it is preferable to form the same at a stretch by the known printed circuit technique. In this manner, on the front and back surface of the board 10 the conductive members 11b of the frequency dividers 3 and the conductive members 11a of the keyer circuits 4 cross each otheron different surfaces and therefore, conditions is brought about, in which both conductive members 11a 11b can be interconnected.

Now, when connecting the output terminals C C B,-B of the frequency dividers 3 with the input terminals K,,K,,, K, of the keyer circuits 4 on the surfaces of the aforesaid board 10 in accordance with the connection requirements for circuit construction of the aforesaid electronic musical instrument, as in the case of FIG. 5 the both conductive members 11a and 11b formed on the front and back surfaces of the board 10 are provided at proper positions and in proper length. The through-holes 12 are made beforehand in the board 10 at points where both the corresponding conductive members 11a and 11b intersect or meet each other. The conductive members 11a and 11b are not extended beyond such points of intersection that is, the conductive members 11a and 11b terminate at such intersecting points. The both conductive members 11a and llbare connected through the'holes 12 under the known coupling technique. Needless to say, if any connectiori method to replace the abovementioned is available, it may be employed.

Now, in accordance with the previously mentioned wiring rule, the output terminals C,- C F, of the frequency dividers 3,, 3,, 3,, of the electronic musical instrument are connected to the input terminals K,, K K, of the keyer circuits 4 with an oddnumbered suffix, while theoutput terminals F G,-,, B of the other frequency dividers 3 ,3

block with an odd-numbered suffix 4, 4 4,,

respectively and further, for example, six output terminals B1, B2, B6 of the frequency divider block 3,, are connected to six input terminals K,,, K K of the keyer circuits with an even-numbered suffix 4 4,, 4,, respectively.

For this reason, at the point of intersection of the conductive members 11b corresponding to the outputterminals 'C,, C,, C of the frequency divider block 3, with the conductive members 11a corresponding to the input terminal K, of the keyer circuits with anoddnumbered suffix, as already mentioned, there is provided -a through-hole l2 beforehand, and the conductive members 11a and 11b on the front and the back surfaces of the board are interconnected through this through-hole 12. As is clear from FIG. 6, the conductive members 11a and 11b on the front and the back surfaces of the board 10 are formed in parallel on each surface without crossing, while the both conductive members 11a, 11b cross each other on different surfaces, which fully permits theformation of complicated pattern of wiring. In the meantime, once the position of the through-hole 12 is determined according to the input and output terminals to be connected, the conductive members 11a and 11b need not be extended beyond that position.

As stated above, with the wiring system of this invention, the frequency dividers} and the keyer circuits 4 are sequentially arranged on the adjacent sides 10,10 or on these first adjacent sides and the second adjacent sides 10 and 10, of the rectangular board l0and, in correspondence to the output or input terminals thereof, the conductive members 11a and 11b crossing each other are provided on the front and back surfaces 10a and 11b of the board, whereby wiring being subjected to an extremely complicated connecting condition of an electronic musical instrument can be joined orderly and functionally through systematization on the I front and back surfaces of the same board 10.

Accordingly, on the wiring board 10 to which the wiring system according to this invention applied, the conductive members 11a and 11b on its front and back surfacesare orderly arranged maintaining a crossing relationship and further, joining of the both conductive members on the front and the back surface as well as the connections (corresponding part at lap or pin terminals) of the conductive members with integrated frequency divider block 3 and keyer circuit block 4 can be made automatically in applying the known printed circuit technique. Also it is possible to thereby reduce size and weight of a circuit construction of the tone signal producing unit of an electronic musical instrument. I I

Moreover, when wiring an electronic musical instrument in utilizing the wiring board under the wiring rule of this invention, instead of complicated connections of a number of wires under a predetermined wiring rule, it is possible to constitute a tone signal producing unit by merely inserting the wired board 10 at a required position, whereby wiring work can be improved greatly. In addition, as there are no such bundles of lead wires as seen in the past, the possibility of deterioration of electricalcharacteristics is eliminated beforehand.

Further, the input terminals 2,, 2 2, of the frequency dividers 3,, 3 3, the control terminals 5,, 5 5,, of the keyer circuits 4,, 4,, 4, and the common output terminals 6,, 6,, 6, are all arranged sequentially along the sides of the wiring board 10 respectively and therefore, wiring of these terminals with the correspondingpoints is greatly simplified.

As stated above, the wiring system of this invention has a great industrial advantage in that by rather positively utilizing special wiring for the circuit construction of an electronic musical instrument, it has succeeded in improvements of electrical characteristics of the wiring in the tone signal producing unit as well as in reduction of size and weight.

I claim:

1. Wiring system for connecting twelve frequency di- .vide'r circuits providing a plurality of full octaves to twelve keyer circuits in an electronic musical instrument, both the frequency divider and keyer circuits having respectively, a number of output terminals and a number of input terminals corresponding in number to the number of said output terminals, comprising;

a substrate board of electrically insulating material I having at least two adjacent sides extending substantially at a right angle to each other,

said frequency divider circuits being arranged along one of said at least two adjacent sides and being divided into first and second groups with each group comprising six divider circuits covering one half octave, and said keyer circuits being arranged along the other side of said at least two adjacent sides and also being divided into first and second groups each having six keyer circuits;

a plurality of first conductive members provided on one surface of said substrate board each electrically connected to a different one of said output terminals of one of said frequency divider circuits and extending from said one side along said other side in parallel to each other;

a plurality of second conductive members provided on the opposing extending surface of said substrate board, each electrically connected to one of said input terminals of one of said keyer circuits and extending from said other side along said one side in parallel to each other,

said first and second conductive members each terminating at intersecting points where the first and second conductive members to be electrically connected intersect and where each first conductive member in said first group terminates at the intersection of a second conductive member connected to a keyer circuit in said first group so that the output terminals of each divider circuit in said first group are each connected to an input terminal of a different keyer circuit of said first group and where each conductive member connected to a frequency divider circuit in said second group terminates at the intersection of a'second conductive member so that the output terminals of each divider circuit means for. connecting said first and second con duc- I ,tive members at said points through said'passages.

a 2. A wiring system as in claim wherein said first'and.

second groups of keyer circuits are'dispo'sed on op-' groups of second groups of keyer circuits are disposed with alternate-key'er circuits along one side of said board.

3. A wiring system as in claim 1 wherein said first and posite sides of said board'and said first and second disposed on opposite sides of saidboard.

yrs-a: r

frequency divider circuits are likewise 

1. Wiring system for connecting twelve frequency divider circuits providing a plurality of full octaves to twelve keyer circuits in an electronic musical instrument, both the frequency divider and keyer circuits having respectively, a number of output terminals and a number of input terminals corresponding in number to the number of said output terminals, comprising; a substrate board of electrically insulating material having at least two adjacent sides extending substantially at a right angle to each other, said frequency divider circuits being arranged along one of said at least two adjacent sides and being divided into first and second groups with each group comprising six divider circuits covering one half octave, and said keyer circuits being arranged along the other side of said at least two adjacent sides and also being divided into first and second groups each having six keyer circuits; a plurality of first conductive members provided on one surface of said substrate board each electrically connected to a different one of said output terminals of one of said frequency divider circuits and extending from said one side along said other side in parallel to each other; a plurality of second conductive members provided on the opposing extending surface of said substrate board, each electrically connected to one of said input terminals of one of said keyer circuits and extending from said other side along said one side in parallel to each other, said first and second conductive members each terminating at intersecting points where the first and second conductive members to be electrically connected intersect and where each first conductive member in said first group terminates at the intersection of a second conductive member connected to a keyer circuit in said first group so that the output terminals of each divider circuit in said first group are each connected to an input terminal of a different keyer circuit of said first group and where each conductive member connected to a frequency divider circuit in said second group terminates at the intersection of a second conductive member connected to a keyer circuit in said second group so that the output terminals of each divider circuit in said second group are each connected to an input terminal of a different keyer circuit of said second group; said substrate board having passages through it from one extending surface to the other at said points; and means for connecting said first and second conductive members at said points through said passages.
 1. Wiring system for connecting twelve frequency divider circuits providing a plurality of full octaves to twelve keyer circuits in an electronic musical instrument, both the frequency divider and keyer circuits having respectively, a number of output terminals and a number of input terminals corresponding in number to the number of said output terminals, comprising; a substrate board of electrically insulating material having at least two adjacent sides extending substantially at a right angle to each other, said frequency divider circuits being arranged along one of said at least two adjacent sides and being divided into first and second groups with each group comprising six divider circuits covering one half octave, and said keyer circuits being arranged along the other side of said at least two adjacent sides and also being divided into first and second groups each having six keyer circuits; a plurality of first conductive members provided on one surface of said substrate board each electrically connected to a different one of said output terminals of one of said frequency divider circuits and extending from said one side along said other side in parallel to each other; a plurality of second conductive members provided on the opposing extending surface of said substrate board, each electrically connected to one of said input terminals of one of said keyer circuits and extending from said other side along said one side in parallel to each other, said first and second conductive members each terminating at intersecting points where the first and second conductive members to be electrically connected intersect and where each first conductive member in said first group terminates at the intersection of a second conductive member connected to a keyer circuit in said first group so that the output terminals of each divider circuit in said first group are each connected to an input terminal of a different keyer circuit of said first group and where each conductive member connected to a frequency divider circuit in said second group terminates at the intersection of a second conductive member connected to a keyer circuit in said second group so that the output terminals of each divider circuit in said second group are each connected to an input terminal of a different keyer circuit of said second group; said substrate board having passages through it from one extending surface to the other at said points; and means for connecting said first and second conductive members at said points through said passages.
 2. A wiring system as in claim 1 wherein said first and second groups of keyer circuits are disposed with alternate keyer circuits along one side of said board. 